Growth and simulation of high-aspect ratio nanopillars by primary and secondary electron-induced deposition

While several studies have suggested that secondary electrons dominate electron beam induced deposition (EBID), we demonstrate that primary electrons (PE’s) contribute significantly to the deposition for nanoscale EBID over the electron beam energy range ( 500 – 20 keV ) . High-aspect ratio pillar g...

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Veröffentlicht in:Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures 2005-11, Vol.23 (6), p.2825-2832
Hauptverfasser: Fowlkes, J. D., Randolph, S. J., Rack, P. D.
Format: Artikel
Sprache:eng
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Zusammenfassung:While several studies have suggested that secondary electrons dominate electron beam induced deposition (EBID), we demonstrate that primary electrons (PE’s) contribute significantly to the deposition for nanoscale EBID over the electron beam energy range ( 500 – 20 keV ) . High-aspect ratio pillar growth is a signature of EBID; W nanopillar growth on Si O 2 substrate yielded a growth rate of 6 nm s − 1 and a nanopillar aspect ratio of ∼ 50 . A simple integration of the primary, secondary, and backscattered electron distributions versus a dissociation cross section for W F 6 suggests that all three electron species should contribute to the total volume of the deposited nanopillar, contrary to reports that suggest that secondary electrons dominate the process. A three-dimensional, Monte Carlo simulation including time correlated gas dynamics and species specific deposition was developed to help elucidate which of the relevant electron species, primary (PE’s), secondary (SE’s), and/or backscattered electrons (BSE’s), induce the dissociation of precursor gas and lead to nanopillar growth. PE’s and secondary electrons produced from the incident beam ( SE I ’s) were found to induce the vertical nanopillar growth component relative to secondary electrons induced from backscattered electrons ( SE II ’s) and BSE’s.
ISSN:0734-211X
1071-1023
1520-8567
DOI:10.1116/1.2101732